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NPYViewer.py
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NPYViewer.py
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#!/usr/bin/env python3
import os.path
import sys
from PyQt5.QtWidgets import *
from PyQt5.QtGui import QIcon
from PyQt5.QtCore import *
from pathlib import Path
import numpy as np
from numpy import asarray
from numpy import savetxt
import pandas as pd
import csv
from matplotlib import pyplot as plt
from mpl_toolkits.mplot3d import Axes3D
import os
from scipy.io import savemat
import networkx as nx
version="1.28"
def isint(s):
try:
print(int(s))
return True
except ValueError:
return False
def isfloat(s):
try:
print(float(s))
return True
except ValueError:
return False
def openNPY_CLI_noGUI (filename):
if ".npy" in filename:
data = np.load(filename, allow_pickle=True)
else:
data = np.array(pd.read_csv(filename).values.tolist())
npyfile = NPYfile(data, filename)
print(npyfile)
print(data)
class NPYfile():
def __init__(self, data, filename):
self.data = data
self.filename = filename
def __str__(self):
if hasattr(self.data, 'dtype'):
return "Filename = " + str(self.filename) + " \nDtype = " + str(self.data.dtype) + "\nShape = " + str(
self.data.shape)
else:
return "Filename = " + str(self.filename) + " \nDtype = " + "\nShape = " + str(self.data.shape)
class MainApp(QMainWindow):
def __init__(self):
super().__init__()
self.left = 0
self.top = 0
self.width = 800
self.height = 640
# np.save('/home/user/tst.npy', np.array([255.0,50.0,10.0,5.0]))
self.npyfile = None
self.initUI()
def saveAs(self):
home = str(Path.home())
if self.npyfile is not None:
home = os.path.dirname(self.npyfile.filename)
path = QFileDialog.getSaveFileName(
self, 'Save File', home, 'NPY (*.npy);;CSV(*.csv);;MAT(*.mat)')[0]
# path = QFileDialog.getSaveFileName(
# self, 'Save File', home, 'CSV(*.csv)')[0]
if path != "" and ".csv" in path:
with open((path.replace(".csv", "") + ".csv"), 'w') as stream:
writer = csv.writer(stream)
for row in range(self.tableWidget.rowCount()):
rowdata = []
for column in range(self.tableWidget.columnCount()):
item = self.tableWidget.item(row, column)
if item is not None:
rowdata.append(item.text())
else:
rowdata.append('')
writer.writerow(rowdata)
else:
OutMatrix = []
for row in range(self.tableWidget.rowCount()):
rowdata = []
for column in range(self.tableWidget.columnCount()):
item = self.tableWidget.item(row, column)
if item is not None:
#if item.text().isnumeric():
rowdata.append(float(item.text()))
if rowdata != []:
OutMatrix.append(rowdata)
OutMatrix = np.array(OutMatrix)
if ".csv" in path:
np.save(path, np.array(OutMatrix))
if ".mat" in path:
mdic = {"ans": OutMatrix}
print(OutMatrix)
savemat(path, mdic)
def openNPY(self):
if os.path.exists("lastpath.npy"):
home = str(np.load("lastpath.npy"))
print(home)
else:
home = str(Path.home())
if self.npyfile is not None:
home = os.path.dirname(self.npyfile.filename)
filename = QFileDialog.getOpenFileName(self, 'Open .NPY file', home, ".NPY files (*.npy);;.CSV files (*.csv)")[
0]
if filename != "":
if ".npy" in filename:
data = np.load(filename, allow_pickle=True)
else:
data = np.array(pd.read_csv(filename).values.tolist())
npyfile = NPYfile(data, filename)
print(npyfile)
self.setWindowTitle("NPYViewer v." +version+": "+ npyfile.filename)
self.infoLb.setText("NPY Properties:\n" + str(npyfile))
self.tableWidget.clear()
# initialise table
self.tableWidget.setRowCount(data.shape[0])
dtype_dim = len(npyfile.data.dtype) # 0, if plain dtype, 1 or bigger if compound dtype
if data.ndim > 1:
self.tableWidget.setColumnCount(data.shape[1])
elif dtype_dim > 0:
self.tableWidget.setColumnCount(dtype_dim)
else:
self.tableWidget.setColumnCount(1)
# fill data
if data.ndim > 1:
for i, value1 in enumerate(npyfile.data): # loop over items in first column
for j, value in enumerate(value1):
self.tableWidget.setItem(i, j, QTableWidgetItem(str(value)))
elif dtype_dim > 0:
for i, value1 in enumerate(npyfile.data):
for j, col_name in enumerate(npyfile.data.dtype.names):
self.tableWidget.setItem(i, j, QTableWidgetItem(str(value1[col_name])))
else:
for i, value1 in enumerate(npyfile.data): # loop over items in first column
self.tableWidget.setItem(i, 0, QTableWidgetItem(str(value1)))
self.npyfile = npyfile
path = os.path.dirname(filename)
np.save("lastpath.npy", path)
def openNPY_CLI(self,filename):
if ".npy" in filename:
data = np.load(filename, allow_pickle=True)
else:
data = np.array(pd.read_csv(filename).values.tolist())
npyfile = NPYfile(data, filename)
print(npyfile)
self.setWindowTitle("NPYViewer v." +version+": " +npyfile.filename)
self.infoLb.setText("NPY Properties:\n" + str(npyfile))
self.tableWidget.clear()
# initialise table
self.tableWidget.setRowCount(data.shape[0])
dtype_dim = len(npyfile.data.dtype) # 0, if plain dtype, 1 or bigger if compound dtype
if data.ndim > 1:
self.tableWidget.setColumnCount(data.shape[1])
elif dtype_dim > 0:
self.tableWidget.setColumnCount(dtype_dim)
else:
self.tableWidget.setColumnCount(1)
# fill data
if data.ndim > 1:
for i, value1 in enumerate(npyfile.data): # loop over items in first column
for j, value in enumerate(value1):
self.tableWidget.setItem(i, j, QTableWidgetItem(str(value)))
elif dtype_dim > 0:
for i, value1 in enumerate(npyfile.data):
for j, col_name in enumerate(npyfile.data.dtype.names):
self.tableWidget.setItem(i, j, QTableWidgetItem(str(value1[col_name])))
else:
for i, value1 in enumerate(npyfile.data): # loop over items in first column
self.tableWidget.setItem(i, 0, QTableWidgetItem(str(value1)))
self.npyfile = npyfile
path = os.path.dirname(filename)
np.save("lastpath.npy", path)
def createMenu(self):
exitAct = QAction(QIcon('exit.png'), '&Exit', self)
exitAct.setShortcut('Ctrl+Q')
exitAct.setStatusTip('Exit application')
exitAct.triggered.connect(qApp.quit)
openAct = QAction(QIcon('Open.png'), '&Open', self)
openAct.setShortcut('Ctrl+O')
openAct.setStatusTip('Open .NPY file')
openAct.triggered.connect(self.openNPY)
self.statusBar()
saveAct = QAction(QIcon('Save.png'), '&Save As', self)
saveAct.setShortcut('Ctrl+S')
saveAct.setStatusTip('Save As')
saveAct.triggered.connect(self.saveAs)
self.statusBar()
grayscalevVewAct = QAction(QIcon(None), '&View as Grayscale Image', self)
grayscalevVewAct.setShortcut('Ctrl+V')
grayscalevVewAct.setStatusTip('View as Grayscale')
grayscalevVewAct.triggered.connect(self.grayscaleView)
self.statusBar()
View3dAct = QAction(QIcon(None), 'View &3D Point Cloud', self)
View3dAct.setShortcut('Ctrl+3')
View3dAct.setStatusTip('View 3D Point Cloud')
View3dAct.triggered.connect(self.View3dPoints)
self.statusBar()
View3dImgAct = QAction(QIcon(None), 'View as &HeightMap', self)
View3dImgAct.setShortcut('Ctrl+H')
View3dImgAct.setStatusTip('View as HeightMap')
View3dImgAct.triggered.connect(self.ViewImageHeightMap)
self.statusBar()
ViewTimeSeriesAct= QAction(QIcon(None), 'View as &Time Series', self)
ViewTimeSeriesAct.setShortcut('Ctrl+S')
ViewTimeSeriesAct.setStatusTip('View as TimeSeries')
ViewTimeSeriesAct.triggered.connect(self.ViewTimeseries)
self.statusBar()
ViewGraphSeriesAct= QAction(QIcon(None), 'View as Directional &Graph', self)
ViewGraphSeriesAct.setShortcut('Ctrl+G')
ViewGraphSeriesAct.setStatusTip('View as Graph')
ViewGraphSeriesAct.triggered.connect(self.ViewGraphSeriesAct)
self.statusBar()
menubar = self.menuBar()
fileMenu = menubar.addMenu('&Functionalities')
fileMenu.addAction(openAct)
fileMenu.addAction(saveAct)
fileMenu.addAction(grayscalevVewAct)
fileMenu.addAction(View3dAct)
fileMenu.addAction(View3dImgAct)
fileMenu.addAction(ViewTimeSeriesAct)
fileMenu.addAction(ViewGraphSeriesAct)
fileMenu.addAction(exitAct)
def grayscaleView(self):
OutMatrix = []
for row in range(self.tableWidget.rowCount()):
rowdata = []
for column in range(self.tableWidget.columnCount()):
item = self.tableWidget.item(row, column)
# print(item.text())
if item is not None:
rowdata.append(np.float32(item.text()))
if len(rowdata) > 0 and rowdata != None:
OutMatrix.append(rowdata)
OutMatrix = np.array(OutMatrix)
plt.imshow(OutMatrix, cmap='gray')
plt.show()
return
def ViewGraphSeriesAct(self):
OutMatrix = []
for row in range(self.tableWidget.rowCount()):
rowdata = []
for column in range(self.tableWidget.columnCount()):
item = self.tableWidget.item(row, column)
# print(item.text())
if item is not None:
rowdata.append(np.float32(item.text()))
if len(rowdata) > 0 and rowdata != None:
OutMatrix.append(rowdata)
OutMatrix = np.array(OutMatrix)
G = nx.DiGraph(OutMatrix)
# Set the position of the nodes in the graph
pos = nx.spring_layout(G)
# Draw the graph with labels and edges
labels = {node: str(int(node)+1) for node in G.nodes()}
nx.draw_networkx_labels(G, pos,labels=labels)
nx.draw_networkx_edges(G, pos)
nx.draw_networkx_edge_labels(G, pos, edge_labels={(i, j): OutMatrix[i][j] for i, j in G.edges()})
# Draw the nodes with the same color
nx.draw_networkx_nodes(G, pos, node_color='b')
# Set the title and show the plot
plt.title("Directional Graph")
plt.show()
def ViewImageHeightMap(self):
OutMatrix = []
for row in range(self.tableWidget.rowCount()):
rowdata = []
for column in range(self.tableWidget.columnCount()):
item = self.tableWidget.item(row, column)
if item is not None:
if item.text():
rowdata.append(np.float32(item.text()))
if len(rowdata) > 0 and rowdata != None:
OutMatrix.append(rowdata)
# print(OutMatrix)
HeightMap = []
for x, row in enumerate(OutMatrix):
for y, val in enumerate(row):
HeightMap.append([x, y, val])
OutMatrix = np.array(HeightMap)
fig = plt.figure()
ax = fig.add_subplot(111, projection='3d')
xs = OutMatrix[:, 0]
ys = OutMatrix[:, 1]
zs = OutMatrix[:, 2]
ax.plot_trisurf(xs, ys, zs,
cmap='Greys_r', edgecolor='none');
ax.set_xlabel('X Axis')
ax.set_ylabel('Y Axis')
ax.set_zlabel('Z Axis')
plt.show()
return
def View3dPoints(self):
OutMatrix = []
for row in range(self.tableWidget.rowCount()):
rowdata = []
for column in range(self.tableWidget.columnCount()):
item = self.tableWidget.item(row, column)
if item is not None:
if item.text():
rowdata.append(np.float32(item.text()))
if len(rowdata) > 0 and rowdata != None:
OutMatrix.append(rowdata)
# print(OutMatrix)
OutMatrix = np.array(OutMatrix)
fig = plt.figure()
ax = fig.add_subplot(111, projection='3d')
xs = OutMatrix[:, 0]
ys = OutMatrix[:, 1]
zs = OutMatrix[:, 2]
ax.scatter(xs, ys, zs, c='r', marker='o')
ax.set_xlabel('X Axis')
ax.set_ylabel('Y Axis')
ax.set_zlabel('Z Axis')
plt.show()
return
def ViewTimeseries(self):
OutMatrix = []
for row in range(self.tableWidget.rowCount()):
rowdata = []
for column in range(self.tableWidget.columnCount()):
item = self.tableWidget.item(row, column)
if item is not None:
if item.text():
rowdata.append(np.float32(item.text()))
if len(rowdata) > 0 and rowdata != None:
OutMatrix.append(rowdata)
# print(OutMatrix)
#OutMatrix = np.array(OutMatrix)
fig = plt.figure()
ax = fig.add_subplot(111)
indices=range(0,len(OutMatrix))
plt.plot(indices, OutMatrix, label='values', linewidth=3)
ax.set_xlabel('Time Unit')
ax.set_ylabel('Values')
plt.show()
return
def initUI(self):
self.createMenu()
self.infoLb = QLabel("NPY Properties:")
self.tableWidget = QTableWidget()
self.tableWidget.setRowCount(100)
self.tableWidget.setColumnCount(100)
# table selection change
# self.tableWidget.doubleClicked.connect(self.on_click)
self.setGeometry(0, 0, 800, 600)
self.setWindowTitle("NPYViewer v."+version)
self.widget = QWidget(self)
layout = QGridLayout()
layout.addWidget(self.infoLb)
layout.addWidget(self.tableWidget)
self.widget.setLayout(layout)
self.setCentralWidget(self.widget)
# self.tableWidget.setItesetTextAlignmentmDelegate(AlignDelegate())
self.layout = QVBoxLayout()
self.setLayout(self.layout)
self.setWindowIcon(QIcon('npyviewer_128x128.png'))
self.show()
def main():
if "-noGUI" not in sys.argv:
app = QApplication(sys.argv)
ex = MainApp()
if len(sys.argv) ==2:
ex.openNPY_CLI(sys.argv[1])
sys.exit(app.exec_())
if len(sys.argv) ==3:
if sys.argv[2]=="-noGUI":
print("GUI not displayed")
openNPY_CLI_noGUI(sys.argv[1])
if __name__ == '__main__':
main()